Suspension assembly with a shape memory actuator coupled to a gimbal

1. A suspension assembly for use with a disk drive having a disk and a slider, the suspension assembly comprising: a gimbal including a gimbal tongue surface for bonding to the slider; a load beam defining a load beam longitudinal axis, the gimbal being coupled to the load beam; and a shape memory actuator coupled to the gimbal, the shape memory actuator being formed of a shape memory metal material, the shape memory actuator overlying the gimbal tongue surface in a direction orthogonal to the load beam longitudinal axis, and the shape memory actuator being elongate and generally aligned with the load beam longitudinal axis.

2. The suspension assembly of claim 1 wherein the shape memory actuator is coupled to the load beam, deflection of the shape memory actuator moves the load beam and the gimbal for selectively moving the slider towards and away from the disk.

3. The suspension assembly of claim 1 wherein the shape memory actuator is integrated with the load beam.

4. The suspension assembly of claim 1 wherein the shape memory actuator is a wire.

5. The suspension assembly of claim 1 wherein the load beam includes a load beam main section and a load beam distal end, the gimbal is supported by the load beam main section, the shape memory actuator is coupled to the load beam distal end, the load beam distal end is formed to engage the gimbal upon actuation of the shape memory actuator, the gimbal is cooperatively formed with the load beam distal end to rotate with respect to the load beam main section upon engagement with the load beam distal end for pitch control of the slider.

6. The suspension assembly of claim 1 wherein the shape memory actuator is integrated with the gimbal.

7. The suspension assembly of claim 1 wherein the shape memory metal material is formed of a NiTiNol material.

8. The suspension assembly of claim 1 wherein the shape memory metal material is formed of a CuZnAl material.

9. The suspension assembly of claim 1 wherein the shape memory metal material is formed of a CuAlNi material.

10. A head stack assembly for use with a disk drive having a disk, the head stack assembly comprising: an actuator arm; a gimbal coupled to the actuator arm; a load beam defining a load beam longitudinal axis, the gimbal being coupled to the load beam; a slider supported by the gimbal; and a shape memory actuator coupled to the gimbal, the shape memory actuator being formed of a shape memory metal material, the shape memory actuator overlying the gimbal tongue surface and the slider in a direction orthogonal to the load beam longitudinal axis, and the shape memory actuator being elongate and generally aligned with the load beam longitudinal axis.

11. The head stack assembly of claim 10 wherein the shape memory actuator is coupled to the load beam, deflection of the shape memory actuator moves the load beam and the gimbal for selectively moving the slider towards and away from the disk.

12. The head stack assembly of claim 10 wherein the shape memory actuator is integrated with the load beam.

13. The head stack assembly of claim 10 wherein the shape memory actuator is a wire.

14. The head stack assembly of claim 10 wherein the load beam includes a load beam main section and a load beam distal end, the gimbal is supported by the load beam main section, the shape memory actuator is coupled to the load beam distal end, the load beam distal end is formed to engage the gimbal upon actuation of the shape memory actuator, the gimbal is cooperatively formed with the load beam distal end to rotate with respect to the load beam main section upon engagement with the load beam distal end for pitch control of the slider.

15. The head stack assembly of claim 10 wherein the shape memory actuator is integrated with the gimbal.

16. A disk drive comprising: a disk drive base; a disk rotatably coupled to the disk drive base; a head stack assembly rotatably coupled to the disk drive base, the head stack assembly including; an actuator arm; a gimbal coupled to the actuator arm; a load beam defining a load beam longitudinal axis, the gimbal being coupled to the load beam; a slider supported by the gimbal and disposed adjacent the disk; and a shape memory actuator coupled to the gimbal, the shape memory actuator being formed of a shape memory metal material, the shape memory actuator overlying the gimbal tongue surface and the slider in a direction orthogonal to the load beam longitudinal axis, and the shape memory actuator being elongate and generally aligned with the load beam longitudinal axis.

17. The disk drive of claim 16 wherein the shape memory actuator is coupled to the load beam, deflection of the shape memory actuator moves the load beam and the gimbal for selectively moving the slider towards and away from the disk.

18. The disk drive of claim 16 wherein the shape memory actuator is integrated with the load beam.

19. The disk drive of claim 16 wherein the shape memory actuator is a wire.

20. The disk drive of claim 16 wherein the load beam includes a load beam main section and a load beam distal end, the gimbal is supported by the load beam main section, the shape memory actuator is coupled to the load beam distal end, the load beam distal end is formed to engage the gimbal upon actuation of the shape memory actuator, the gimbal is cooperatively formed with the load beam distal end to rotate with respect to the load beam main section upon engagement with the load beam distal end for pitch control of the slider.

21. The disk drive of claim 16 wherein the shape memory actuator is integrated with the gimbal.